施氮水平对优质稻光温资源利用、产量和品质的影响

doi:10.3969/j.issn.1000-6362.2026.05.009

中国农业气象 ›› 2026, Vol. 47 ›› Issue (5): 742-755.doi: 10.3969/j.issn.1000-6362.2026.05.009

施氮水平对优质稻光温资源利用、产量和品质的影响

章起明，易艳红，杨林，郭水连

1.江西省宜春市气象局，宜春 336000；2.江西省气象服务中心，南昌 330096；3.江西南昌农业气象试验站，南昌 330200

收稿日期:2025-04-18 出版日期:2026-05-20 发布日期:2026-05-18
作者简介:章起明，E-mail：qmzhang3519@163.com
基金资助:
南昌市农业气象重点实验室开放研究基金课题（2022NNZS201）；江西省宜春市气象局自筹科研项目

Effects of Different Nitrogen Levels on Light−temperature Resource Utilization, Yield and Grain Quality of High−quality Rice

ZHANG Qi-ming, YI Yan-hong, YANG Lin, GUO Shui-lian

1. Yichun Meteorological Bureau of Jiangxi Province, Yichun 336000, China; 2. Meteorological Service Center of Jiangxi Province, Nanchang 330096; 3. Jiangxi Nanchang Agrometeorological Experimental Station, Nanchang 330200

Received:2025-04-18 Online:2026-05-20 Published:2026-05-18

摘要/Abstract

摘要：

以3个优质籼稻品种为材料，设置5个纯氮施氮水平（N₀：0、N₁₂₀：120kg·hm⁻²、N₁₅₀：150kg·hm⁻²、N₁₈₀：180kg·hm⁻²和N₂₁₀：210kg·hm⁻²），于2023−2024年在江西省赣北地区开展田间试验，分析不同施氮水平对不同品种优质稻光温资源利用、产量及品质的影响，为提升研究区优质稻产量潜力和气候资源利用提供参考。结果表明：随着施氮量的增加，2023−2024年供试优质稻全生育期分别延长了4～11d和4～13d，生育期的延长主要表现在优质稻生殖生长阶段。优质稻全生育期≥10℃活动积温和太阳辐射总体呈递增趋势，2023年≥10℃活动积温增幅为2.5%～8.7%，2024年为2.6%～11.4%，太阳辐射2023年增幅为1.1%～8.3%，2024年为2.0%～9.1%；≥10℃活动积温生产效率、光能生产效率、光能利用率呈先升后降趋势，N₁₅₀处理下最高。每穗粒数和产量均以N₁₅₀处理最高，结实率呈下降趋势，有效穗数呈递增趋势。稻米加工品质以N₁₅₀处理表现最好；外观品质随施氮量增加而降低；直链淀粉含量呈先降后升趋势，‘野香优莉丝’和‘泰丰优308’2a试验均以N₁₅₀处理最低；胶稠度呈先升后降趋势，除2023年‘野香优莉丝’在N₁₈₀处理下最高外，其他均在N₁₅₀处理下最高。综上，全生育期施氮水平为150kg·hm⁻²时，能获得高产优质且光温利用率高，是赣北地区优质籼稻种植值得推荐的氮肥施用量。

关键词: 施氮量, 优质稻, 产量, 稻米品质, 光温利用

Abstract:

Nitrogen is the most demanded nutrient element for rice, but excessive application of nitrogen can easily lead to a mismatch between rice growth and the availability of light−temperature resources, which is becoming one of the factors limiting the high yield and quality of rice. In this study, used three high−quality rice as variety materials, 5 nitrogen application amount (N₀: 0, N₁₂₀: 120kg·ha⁻¹, N₁₅₀: 150kg·ha⁻¹, N₁₈₀: 180kg·ha⁻¹ and N₂₁₀: 210kg·ha⁻¹) were set to analyze the effect of different nitrogen levels on light−temperature utilization, yield and grain quality of rice. The aim was to provide a reference for enhancing yield potential and optimizing the utilization of climate resource for high−quality rice cultivation in northern Jiangxi. The results showed that with the increase of nitrogen amount, the whole growth period of the tested high−quality rice in 2023–2024 was prolonged by 4−11d and 4−13d respectively, and the prolongation mainly occurring in the reproductive growth stage. The ≥10°C accumulated temperature and solar radiation during the whole growth period generally showed an increasing trend, the increase range of ≥10°C accumulated temperature was 2.5%−8.7% in 2023 and 2.6%−11.4% in 2024, increase range of solar radiation was 1.1%−8.3% in 2023 and 2.0%−9.1% in 2024. The ≥10°C accumulated temperature production efficiency, light production efficiency and light utilization efficiency first increased and then decreased, maximized in N₁₅₀ treatment. The grain number per panicle and yield maximized under N₁₅₀ treatment, while the seed setting rate showed a decreasing trend, and the effective panicle increased with the increase of nitrogen rate. Rice processing quality was best in N₁₅₀ treatment; appearance quality decreased with the increase of nitrogen rate; amylose content first decreased and then increased, both ‘YXYLS’ and ‘TFY308’ lowest in N₁₅₀ treatment. gel consistency first increased and then decreased, except for ‘YXYLS’ maximized in N₁₈₀ treatment in 2023, all other treatments maximized in the N₁₅₀ treatment. Overall, both high yield, good quality and high light−temperature utilization rate can be obtained by applying 150kg·ha⁻¹in whole growth period. This nitrogen rate is recommended for high−quality indica rice in northern Jiangxi.

Key words: Nitrogen rate, High?quality rice, Yield, Grain quality, Light?temperature utilization

章起明, 易艳红, 杨林, 郭水连. 施氮水平对优质稻光温资源利用、产量和品质的影响[J]. 中国农业气象, 2026, 47(5): 742-755.

ZHANG Qi-ming, YI Yan-hong, YANG Lin, GUO Shui-lian. Effects of Different Nitrogen Levels on Light−temperature Resource Utilization, Yield and Grain Quality of High−quality Rice[J]. Chinese Journal of Agrometeorology, 2026, 47(5): 742-755.

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施氮水平对优质稻光温资源利用、产量和品质的影响

Effects of Different Nitrogen Levels on Light−temperature Resource Utilization, Yield and Grain Quality of High−quality Rice

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